Modular smoking device

ABSTRACT

A modular smoking device has a base module having a main body, a bottom, and an upper female connection end, an ice catcher module having a main body, an upper end, a lower male connection end, an interior chamber having a floor member having a number of notched openings with the notched openings for capturing ice placed in the interior chamber, and the lower male connection end for fitting within the upper female connection end of the base module, and a mouth cylinder module having a main body, an upper end, a lower male connection end, and an interior chamber, and the lower male connection end for fitting within the upper end of the ice catcher module.

BACKGROUND

This disclosure relates generally to a smoking device assembly and moreparticularly to a modular smoking device assembly for smoking marijuanaor medical marijuana to provide an improved smoking experience.

Smoking of organic materials such as marijuana is accomplished byinhaling smoke from a pipe, a water pipe, or a bong. Since smoke isbeing inhaled into the lungs, this has been found to be hot andirritating. In order to counteract this harshness of the smoke it isnecessary to temper the smoke by using water, air, or ice prior to thesmoke being inhaled. One way to accomplish this is to use a water pipe.The water pipe consists of a mouthpiece, a water chamber, and a bowl inwhich the marijuana is burned. A burning bowl is connected to thehousing for introducing smoke into the water chamber. A mouthpiececommunicates with the water chamber for drawing smoke from the burningbowl through the water chamber. As the smoke travels through the water,it tends to be cleaned of ash and certain other contaminants, and may becooled slightly to render it more suitable for inhaling.

Although water pipes and bongs are useful, it is still found that thesmoke generated by these devices remains harsh and there is a need totemper the smoke even further. For example, steam is produced by drawingthe smoke through a liquid medium. The steam is hot and this decreasesthe pleasure. In essence, there is still a need for a smoking devicethat increases the cooling of the smoke prior to the smoke being inhaledby an individual. It would also be advantageous to provide a smokingdevice that does not require increased draw strength when using thesmoking device.

The present disclosure is designed to obviate and overcome many of thedisadvantages and shortcomings experienced with prior smoking devices.Particularly, it would be advantageous to be able to have a modularsmoking device having interchangeable modules that may be rearranged fora customized smoking experience. Moreover, the present disclosure isrelated to a modular smoking device having modules that may bedisassembled for easy cleaning of the device. Further, it would bedesirable to have a modular smoking device that is relatively simple andinexpensive which will provide a desirably effective filtering action,which will require minimal draw strength to operate, and will cool thesmoke for a more enjoyable experience.

SUMMARY

In one form of the present disclosure, a modular smoking device isdisclosed which comprises a base module having a main body, a bottom,and an upper female connection end, an ice catcher module having a mainbody, an upper end, a lower male connection end, an interior chamberhaving a floor member having a number of notched openings with thenotched openings for capturing ice placed in the interior chamber, andthe lower male connection end for fitting within the upper femaleconnection end of the base module, and a mouth cylinder module having amain body, an upper end, a lower male connection end, and an interiorchamber, and the lower male connection end for fitting within the upperend of the ice catcher module.

In another form of the present disclosure, a module smoking devicecomprises a base module having a main body, a bottom, and an upperfemale connection end, an ice catcher module having a main body, anupper end, a lower male connection end, an interior chamber having afloor member having a number of notched openings with the notchedopenings for capturing ice placed in the interior chamber, a hex diskmodule having a main body, an upper end, a lower male connection end, aninterior chamber having a floor member having a number of hexagonalshaped openings, and a mouth cylinder module having a main body, anupper end, a lower male connection end, and an interior chamber.

In still another form of the present disclosure, a module smoking devicecomprises a base module having a main body, a bottom, and an upperfemale connection end, an ice catcher module having a main body, anupper end, a lower male connection end, an interior chamber having afloor member having a number of notched openings with the notchedopenings for capturing ice placed in the interior chamber, a percolatormodule having a main body, an upper end, a lower male connection end,and an interior chamber, and a mouth cylinder module having a main body,an upper end, a lower male connection end, and an interior chamber.

In light of the foregoing comments, it will be recognized that themodular smoking device of the present disclosure is of simpleconstruction and design and which can be easily employed with highlyreliable results.

The present disclosure provides a modular smoking device that can betaken apart for easily cleaning of each of the components or modules.

The present disclosure provides a modular smoking device that employs anumber of modules that allows an individual to select a number ofdifferent combinations of modules for providing different smokingexperiences.

The present disclosure provides a modular smoking device that does notrequire any special tools to use or reconfigure the modular smokingdevice.

The present disclosure also provides a modular smoking device that caninclude a number of ice catcher modules for cooling any smoke generatedduring use of the modular smoking device with the ice catcher modulesbeing able to be placed anywhere within the modular smoking device.

The present disclosure provides a module smoking device that can beconstructed using readily available materials and constructiontechniques.

The present disclosure also provides a modular smoking device that canbe configured in numerous different smoking configurations and iscapable of receiving or accepting new modules having new or differentfeatures incorporated therein.

The present disclosure is directed to a modular smoking device that canhave ice modules interspersed within the device for cooling down smoketo provide for a more enjoyable smoking experience.

The present disclosure is also directed to a modular smoking device thathas modules that can easily be replaced in the event of a failure of oneof the modules.

The present disclosure is further directed to a modular smoking devicethat allows for future modules to be developed for easy incorporationinto the modular smoking device.

The present disclosure provides a modular smoking device that usesin-line percolators to cool down smoke to provide for a more enjoyablesmoking experience.

The present disclosure is directed to a modular smoking device that isrelatively inexpensive, not complex, requires minimal draw strength tooperate, and cools the smoke for a more enjoyable experience.

The present disclosure also provides a modular smoking device that hasdisc percolators for cooling down smoke to provide for a more enjoyablesmoking experience.

These and other advantages of the present disclosure will becomeapparent after considering the following detailed specification inconjunction with the accompanying drawings, wherein:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a modular smoking device constructedaccording to the present disclosure;

FIG. 2 is a perspective view of a base module which is used to constructthe modular smoking device shown in FIG. 1;

FIG. 3 is a cross-sectional view of the base module shown in FIG. 2;

FIG. 4 is a perspective view of a complex percolator module which isused to construct the modular smoking device shown in FIG. 1;

FIG. 5 is a cross-sectional view of the complex percolator module shownin FIG. 4;

FIG. 6 is a perspective view of a simple percolator module which is usedto construct the modular smoking device shown in FIG. 1;

FIG. 7 is a cross-sectional view of the simple percolator module shownin FIG. 6;

FIG. 8 is a perspective view of an ice catcher module which is used toconstruct the modular smoking device shown in FIG. 1;

FIG. 9 is a cross-sectional view of the ice catcher module shown in FIG.8;

FIG. 10 is a top view of the ice catcher module constructed according tothe present disclosure;

FIG. 11 is a perspective view of a vortex disk module which is used toconstruct the modular smoking device shown in FIG. 1;

FIG. 12 is a cross-sectional view of the vortex disk module shown inFIG. 11;

FIG. 13 is a top view of the vortex disk module constructed according tothe present disclosure;

FIG. 14 is a perspective view of a hex disk module which is used toconstruct the modular smoking device shown in FIG. 1;

FIG. 15 is a cross-sectional view of the hex disk module shown in FIG.14;

FIG. 16 is a top view of the hex disk module constructed according tothe present disclosure;

FIG. 17 is a perspective view of a mouth cylinder module which is usedto construct the modular smoking device shown in FIG. 1;

FIG. 18 is a cross-sectional view of the mouth cylinder module shown inFIG. 17;

FIG. 19 is a top view of the mouth cylinder module constructed accordingto the present disclosure; and

FIG. 20 is a perspective view of a downstream for use with the modulesmoking device constructed according to the present disclosure.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

Referring now to the drawings, wherein like numbers refer to like items,number 10 identifies a preferred embodiment of a modular smoking deviceconstructed according to the present disclosure. Referring now to FIG.1, the modular smoking device 10 is shown to comprise a base module orcomponent 12, a complex percolator module or component 14, an icecatcher module or component 16, a first vortex disk module or component18, a second vortex disk module or component 20, a simple percolatormodule or component 22, a hex disk module 24, and a mouth cylinder 26.The device 10 is modular in that the modules 14, 16, 18, 20, 22, and 24are interchangeable and may be positioned anywhere along the device 10.For example, more than one of the modules 14, 16, 18, 20, 22, and 24 maybe used in forming or configuring the device 10. Further, since themodules 12, 14, 16, 18, 20, 22, and 24 may be separated, the modules 12,14, 16, 18, 20, 22, and 24 may be separately cleaned. The base module 12has a downstream receptacle 28 adapted for receiving a downstream 30.

FIG. 2 shows the base module 12 removed from the modular smoking device10. The base module 12 has a bottom 32, a main body 34, and an upperfemale connection end 36. An aperture, stem hole, or opening 38 isformed in the main body 34 and the opening 38 is used to receive thedownstream (not shown). The main body 34 has an interior chamber 40which is used to receive a quantity of water (not shown) or otherliquid. The interior chamber 40 also receives burnt marijuana and smoke.The upper female connection end 36 is sized and shaped to receive andretain any of the other modules 14, 16, 18, 20, 22, or 24, as will beexplained more fully herein. The end 36 is a female type joint orconnection. As should be appreciated, the base module 12 may easily beremoved or separated from any of the modules 14, 16, 18, 20, 22, or 24for cleaning purposes or for disposal of any fluid within the interiorchamber 40.

With reference now to FIG. 3, a cross-sectional view of the base module12 is shown. The base module 12 has the downstream receptacle 28, thebottom 32, the main body 34, and the upper female connection end 36. Theaperture 38 formed in the main body 34 is also shown and the aperture 38is adapted for receiving a downstream (not shown). The interior chamber40 is large enough to contain a quantity of a liquid (not shown) duringuse of the device 10. The connection end 36 is sized and shaped to beable to receive and retain any of the other modules 14, 16, 18, 20, 22,or 24.

FIG. 4 illustrates a perspective view of the complex percolator module14. The percolator module 14 consists of a main body 50, an upper end52, a lower male connection end 54, and an interior chamber 56. As canbe appreciated, and by way of example only, the lower male connectionend 54 is sized and shaped to fit within the connection end 36 of thebase module 12. In this manner, the percolator module 14 may beconnected to the base module 12. Further, by use of the connections 36and 54, the base module 12 and the percolator module 14 may be easilyseparated from each other.

Referring now to FIG. 5, a cross-sectional view of the complexpercolator module 14 is depicted. The percolator module 14 has the mainbody 50, the upper end 52, the lower male connection end 54, and theinterior chamber 56. The interior chamber 56 has a turbine assembly 58.The turbine assembly 58 is used to aerate smoke that enters into theinterior chamber 56. The turbine assembly 58 has a dome 60 having anumber of arms 62 with each of the arms 62 having an opened end 64. Theopened ends 64 allow smoke to travel through the connection end 54, intothe dome 60, through the arms 62, out through the opened ends 64 and outthrough the upper end 52. In essence, smoke is allowed to percolatewithin the module 14. Smoke is dispersed and then allowed to come backtogether and rise to the next module. The connection end 54 is a maletype joint or connection. The main body 50 has a circumference 66 andthe connection end 54 has a circumference 68. The circumference 66 isgreater than the circumference 68 and this forms the male type joint.Also, there is a circumferential ledge 70 formed between thecircumference 66 and the circumference 68. By way of example, the ledge70 is capable of abutting against the connection end 36 of the basemodule 12.

FIG. 6 shows a perspective view of the simple percolator module 22. Thepercolator module 22 consists of a main body 82, an upper end 84, alower male connection end 86, and an interior chamber 88. As can beappreciated, and by way of example only, the lower male connection end86 is sized and shaped to fit within the connection end 36 of the basemodule 12. In this manner, the percolator module 22 may be connected tothe base module 12. Further, by use of the connections 36 and 86, thebase module 12 and the percolator module 22 may be easily separated fromeach other. Also, as should be understood, the connection 86 is able tofit within the upper end 52 of the percolator module 14 so that thepercolator modules 14 and 22 can be stacked upon each other.

With particular reference now to FIG. 7, a cross-sectional view of thesimple percolator module 22 is depicted. The percolator module 22 hasthe main body 82, the upper end 84, the lower male connection end 86,and the interior chamber 88. The interior chamber 88 has a percolatorassembly 90. The percolator assembly 90 is used to aerate smoke thatenters into the interior chamber 88. The percolator assembly 90 has adome 92 having a circular opened end 94. The opened end 94 allows smoketo travel through the connection end 86, into the dome 92, out throughthe opened end 94 and out through the upper end 84. The connection end86 is a male type joint or connection. The main body 82 has acircumference 96 and the connection end 86 has a circumference 98. Thecircumference 96 is greater than the circumference 98 and this forms themale type joint. Also, there is a circumferential ledge 100 formedbetween the circumference 96 and the circumference 98. By way ofexample, the ledge 100 is capable of abutting against the connection end36 of the base module 12.

FIG. 8 illustrates a perspective view of the ice catcher module 16. Theice catcher module 16 has a main body 110, an upper end 112, a lowermale connection end 114, and an interior chamber 116. As can beappreciated, and by way of example only, the lower male connection end114 is sized and shaped to fit within the connection end 36 of the basemodule 12. In this manner, the ice catcher module 16 may be connected tothe base module 12. Further, by use of the connections 36 and 114, thebase module 12 and the ice catcher module 16 may be easily separatedfrom each other. In particular, ice may need to be added to the chamberof the ice catcher module 16. Being able to separate the modules 12 and16 allows ice to be filled or refilled into the module 16 without haveto take apart the entire device 10.

Referring now in particular to FIG. 9, a cross-sectional view of the icecatcher module 16 is shown. The ice catcher module 16 has the main body110, the upper end 112, the lower male connection end 114, and theinterior chamber 116. The interior chamber 116 has a floor member 118having a number of notched openings 120. The notched openings 120 can beused to hold or capture ice or ice cubes placed in chamber 116 of themodule 16. The notched openings 120 may also be used to aerate smokethat enters into the chamber 116 of the module 16. Also, ice or icecubes placed in the chamber 116 will cool the smoke. Further, thenotched openings 120 may prevent any water from splashing into a mouthof an individual using the device 10. The connection end 114 is a maletype joint or connection. The main body 110 has a circumference 122 andthe connection end 114 has a circumference 124. The circumference 122 isgreater than the circumference 124 and this forms the male type joint.Also, there is a circumferential ledge 126 formed between thecircumference 122 and the circumference 124. By way of example, theledge 126 is capable of abutting against the connection end 36 of thebase module 12.

FIG. 10 is a top view of the ice catcher module 16. The ice catchermodule 16 has the main body 110, the upper end 112, the interior chamber116, and the floor 118 having the notched openings 120. Although sixnotched openings 120 are shown, it is possible that less or more notchedopenings 120 may be provided in the floor 118. As should be appreciated,more than one of the ice catcher modules 16 may be used in constructingthe device 10. Further, the ice catcher module 16 may be positionedanywhere in the device 10. The ice catcher module 16 may be the firstmodule placed after the base module 12. In this event, smoke isimmediately cooled once smoke is generated within the device 10. Withthe use of the ice catcher module 16 being the first module after thebase module 12 and being able to place multiple ice catcher modules 16within the device 10 a better, smoother hit is created and smoke isexponentially cooled down.

FIG. 11 illustrates a perspective view of either the first vortex diskmodule 18 or the second vortex disk module 20. The vortex disk module 18has a main body 140, an upper end 142, a lower male connection end 144,and an interior chamber 146. As can be appreciated, and by way ofexample only, the lower male connection end 144 is sized and shaped tofit within the connection end 36 of the base module 12. In this manner,the vortex disk module 18 may be connected to the base module 12.Further, by use of the connections 36 and 144, the base module 12 andthe vortex disk module 18 may be easily separated from each other. Beingable to separate the modules 12 and 18 or 20 allows the modules 18 or 20to be placed anywhere in the device 10. Further, being able to separatethe modules 18 or 20 allows the modules 18 or 20 to be easily cleaned.

With reference now to FIG. 12, a cross-sectional view of the vortex diskmodule 18 is shown. The vortex disk module 18 has the main body 140, theupper end 142, the lower male connection end 144, and the interiorchamber 146. The interior chamber 146 has a floor member 148 having anumber of slotted openings 150. The slotted openings 150 are used toaerate smoke that enters into the chamber 146 of the module 18. Further,the slotted openings 150 may prevent any water from splashing into amouth of an individual using the device 10. The connection end 144 is amale type joint or connection. The main body 140 has a circumference 152and the connection end 144 has a circumference 154. The circumference152 is greater than the circumference 154 and this forms the male typejoint. Also, there is a circumferential ledge 156 formed between thecircumference 152 and the circumference 154. By way of example, theledge 156 is capable of abutting against the connection end 36 of thebase module 12.

FIG. 13 is a top view of the vortex disk module 18. The vortex diskmodule 18 has the main body 140, the upper end 142, the interior chamber146, and the floor 148 having the slotted openings 150. Although sixslotted openings 150 are shown, it is contemplated that less or moreslotted openings 150 may be provided in the floor 148. Further, morethan one of the vortex disk modules 18 may be used in constructing thedevice 10. In particular, as is shown in FIG. 1, two vortex disk modules18 and 20 are shown as being a part of the device 10. Further, thevortex disk module 18 may be positioned anywhere in the device 10.

Referring to FIG. 14, a perspective view of the hex disk module 22 isillustrated. The hex disk module 22 has a main body 160, an upper end162, a lower male connection end 164, and an interior chamber 166. Thelower male connection end 164 is sized and shaped to fit within theconnection end 36 of the base module 12. In this manner, the hex diskmodule 22 may be connected to the base module 12. Further, by use of theconnections 36 and 164, the base module 12 and the hex disk module 22may be easily separated from each other. Being able to separate themodules 12 and 22 allows the module 22 to be placed anywhere in thedevice 10. Further, being able to separate the modules 12 and 22 allowsthe module 22 to be easily cleaned.

FIG. 15 shows a cross-sectional view of the hex disk module 22. The hexdisk module 22 has the main body 160, the upper end 162, the lower maleconnection end 164, and the interior chamber 166. The interior chamber166 has a floor member 168 having a number of hexagonal shaped openings170. The openings 170 are used to aerate smoke that enters into thechamber 166 of the module 22. Further, the openings 170 may prevent anywater from splashing into a mouth of an individual using the device 10.The connection end 164 is a male type joint or connection. The main body160 has a circumference 172 and the connection end 164 has acircumference 174. The circumference 172 is greater than thecircumference 174 and this forms the male type joint. Also, there is acircumferential ledge 176 formed between the circumference 172 and thecircumference 174. By way of example, the ledge 176 is capable ofabutting against the connection end 36 of the base module 12.

FIG. 16 is a top view of the hex disk module 22. The hex disk module 22has the main body 160, the upper end 162, the interior chamber 166, andthe floor 168 having the hex openings 170. Although the openings 170 areshown covering a portion of the floor 168, it is possible that more orless openings 170 may be provided in the floor 168. Further, more thanone of the hex disk modules 22 may be used in constructing the device10.

With reference now to FIG. 17, the mouth cylinder module 26 is shown.The mouth cylinder module 26 has a main body 180, an upper end 182, alower male connection end 184, and an interior chamber 186. The mainbody 180 also has a number of pinchers 188 formed therein for receivingice. The lower male connection end 184 is sized and shaped to fitwithin, by way of example only, the upper end 162 of the hex disk module22. In this manner, the mouth cylinder module 26 may be connected to thehex disk module 22. Further, by use of the connections 162 and 184, themouth cylinder module 26 and the hex disk module 22 may be easilyseparated from each other. In essence, any of the modules 12, 14, 16,18, 20, 22, or 24 may be connected to the mouth cylinder module 26 toform the device 10. Further, being able to separate the module 26 allowsthe mouth cylinder module 26 to be easily cleaned.

FIG. 18 shows a cross-sectional view of the mouth cylinder module 26.The mouth cylinder module 26 has the main body 180, the upper end 182,the lower male connection end 184, and the interior chamber 186. Theinterior chamber 186 has the pinchers 188 formed therein. The pinchers188 are used to capture and hold ice which is used to cool the smokewithin the device 10. The connection end 184 is a male type joint orconnection. The main body 180 has a circumference 190 and the connectionend 184 has a circumference 192. The circumference 190 is greater thanthe circumference 192 and this forms the male type joint. Also, there isa circumferential ledge 194 formed between the circumference 190 and thecircumference 192. By way of example, the ledge 194 is capable ofabutting against the connection end 36 of the base module 12.

FIG. 19 is a top view of the mouth cylinder module 26. The mouthcylinder module 26 has the main body 180, the upper end 182, theinterior chamber 186, and the pinchers 188. Although four pinchers 188are shown, it is possible that more or less pinchers 188 may be formedin the main body 180.

Referring now to FIG. 20, a perspective view of the downstream 30 isdepicted. The downstream 30 has an upper bowl portion 200 and a lowerstem portion 202. The lower stem portion 202 is inserted into theaperture 38 (FIG. 3) of the downstream receptacle 28 (FIG. 3). The upperbowl portion 200 is on the outside of the base module 12. The upper bowlportion 200 is used for receiving and hold marijuana.

The device 10 may be constructed using one or more of the modules 12,14, 16, 18, 20, 22, 24, and 26. In particular, the device may havemultiple ice catcher modules 16 positioned anywhere in the device 10.Preferably, the module smoking device 10 will be constructed of arelatively durable material so that it can be easily used andmanufactured. By way of example only, the modular smoking device 10 maybe constructed of glass so that it may be visible during use and iseasily cleaned.

From all that has been said, it will be clear that there has thus beenshown and described herein a modular smoking device which fulfills thevarious objects and advantages sought therefor. It will be apparent tothose skilled in the art, however, that many changes, modifications,variations, and other uses and applications of the subject modularsmoking device are possible and contemplated. All changes,modifications, variations, and other uses and applications which do notdepart from the spirit and scope of the disclosure are deemed to becovered by the disclosure, which is limited only by the claims whichfollow.

What is claimed is:
 1. A modular smoking device comprising: a basemodule having a main body, a bottom, and an upper female connection end;an ice catcher module having a main body, an upper end, a lower maleconnection end, an interior chamber having a floor member having anumber of notched openings with the notched openings for capturing iceplaced in the interior chamber, and the lower male connection end forfitting within the upper female connection end of the base module; and amouth cylinder module having a main body, an upper end, a lower maleconnection end, and an interior chamber, and the lower male connectionend for fitting within the upper end of the ice catcher module.
 2. Themodular smoking device of claim 1 wherein the ice catcher modulecomprises six notched openings formed in the floor member.
 3. Themodular smoking device of claim 1 wherein the main body of the icecatcher module has a circumference, the lower male connection end of theice catcher module has a circumference, and the circumference of themain body of the ice catcher module is greater than the circumference ofthe lower male connection end of the ice catcher module.
 4. The modularsmoking device of claim 3 wherein the ice catcher module furthercomprises a circumferential ledge formed between the circumference ofthe main body of the ice catcher module and the circumference of thelower male connection end of the ice catcher module.
 5. The modularsmoking device of claim 1 further comprising a second ice catcher modulehaving a main body, an upper end, a lower male connection end, aninterior chamber having a floor member having a number of notchedopenings with the notched openings for capturing ice placed in thechamber, and the lower male connection end for fitting within the upperfemale connection end of the base module.
 6. The modular smoking deviceof claim 5 wherein the lower male connection end of the second icecatcher module for fitting within the upper female connection end of theice catcher module.
 7. The modular smoking device of claim 1 wherein themain body of the mouth cylinder module has a circumference, the lowermale connection end of the mouth cylinder module has a circumference,and the circumference of the main body of the mouth cylinder module isgreater than the circumference of the lower male connection end of themouth cylinder module.
 8. A modular smoking device comprising: a basemodule having a main body, a bottom, and an upper female connection end;an ice catcher module having a main body, an upper end, a lower maleconnection end, an interior chamber having a floor member having anumber of notched openings with the notched openings for capturing iceplaced in the interior chamber; a hex disk module having a main body, anupper end, a lower male connection end, and an interior chamber having afloor member having a number of hexagonal shaped openings; and a mouthcylinder module having a main body, an upper end, a lower maleconnection end, and an interior chamber.
 9. The modular smoking deviceof claim 8 wherein the main body of the ice catcher module has acircumference, the lower male connection end of the ice catcher has acircumference, and the circumference of the main body of the ice catchermodule is greater than the circumference of the lower male connectionend of the ice catcher module.
 10. The modular smoking device of claim 9wherein the ice catcher module further comprises a circumferential ledgeformed between the circumference of the main body of the ice catchermodule and the circumference of the lower male connection end of the icecatcher module.
 11. The modular smoking device of claim 8 wherein themain body of the hex disk module has a circumference, the lower maleconnection end of the hex disk module has a circumference, and thecircumference of the main body of the hex disk module is greater thanthe circumference of the lower male connection end of the hex diskmodule.
 12. The modular smoking device of claim 11 wherein the hex diskmodule further comprises a circumferential ledge formed between thecircumference of the main body of the hex disk module and thecircumference of the lower male connection end of the hex disk module.13. The modular smoking device of claim 8 further comprising a secondhex disk module having a main body, an upper end, a lower maleconnection end, and an interior chamber having a floor member having anumber of hexagonal shaped openings.
 14. The modular smoking device ofclaim 8 further comprising a second ice catcher module having a mainbody, an upper end, a lower male connection end, an interior chamberhaving a floor member having a number of notched openings with thenotched openings for capturing ice placed in the chamber.
 15. Themodular smoking device of claim 8 wherein the main body of the mouthcylinder module has a circumference, the lower male connection end ofthe mouth cylinder module has a circumference, and the circumference ofthe main body of the mouth cylinder module is greater than thecircumference of the lower male connection end of the mouth cylindermodule.
 16. A modular smoking device comprising: a base module having amain body, a bottom, and an upper female connection end; an ice catchermodule having a main body, an upper end, a lower male connection end, aninterior chamber having a floor member having a number of notchedopenings with the notched openings for capturing ice placed in theinterior chamber; a percolator module having a main body, an upper end,a lower male connection end, and an interior chamber; and a mouthcylinder module having a main body, an upper end, a lower maleconnection end, and an interior chamber.
 17. The modular smoking deviceof claim 16 wherein the percolator module further comprises a turbineassembly for aerating smoke that enters into the interior chamber. 18.The modular smoking device of claim 17 wherein the turbine assemblycomprises a dome having a number of arms with each of the arms having anopened end.
 19. The modular smoking device of claim 16 wherein thepercolator module further comprises a dome having a circular opened end.20. The modular smoking device of claim 16 wherein the main body of theice catcher module has a circumference, the lower male connection end ofthe ice catcher module has a circumference, and the circumference of themain body of the ice catcher module is greater than the circumference ofthe lower male connection end of the ice catcher module; and acircumferential ledge formed between the circumference of the main bodyof the ice catcher module and the circumference of the lower maleconnection end of the ice catcher module.